meilisearch/milli/tests/search/mod.rs
mpostma aa6c5df0bc Implement documents format
document reader transform

remove update format

support document sequences

fix document transform

clean transform

improve error handling

add documents! macro

fix transform bug

fix tests

remove csv dependency

Add comments on the transform process

replace search cli

fmt

review edits

fix http ui

fix clippy warnings

Revert "fix clippy warnings"

This reverts commit a1ce3cd96e603633dbf43e9e0b12b2453c9c5620.

fix review comments

remove smallvec in transform loop

review edits
2021-09-21 16:58:33 +02:00

231 lines
8.7 KiB
Rust

use std::cmp::Reverse;
use std::collections::HashSet;
use std::io::Cursor;
use big_s::S;
use either::{Either, Left, Right};
use heed::EnvOpenOptions;
use maplit::{hashmap, hashset};
use milli::documents::{DocumentBatchBuilder, DocumentBatchReader};
use milli::update::{Settings, UpdateBuilder};
use milli::{AscDesc, Criterion, DocumentId, Index, Member};
use serde::Deserialize;
use slice_group_by::GroupBy;
mod distinct;
mod filters;
mod query_criteria;
mod sort;
pub const TEST_QUERY: &'static str = "hello world america";
pub const EXTERNAL_DOCUMENTS_IDS: &[&str; 17] =
&["A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q"];
pub const CONTENT: &str = include_str!("../assets/test_set.ndjson");
pub fn setup_search_index_with_criteria(criteria: &[Criterion]) -> Index {
let path = tempfile::tempdir().unwrap();
let mut options = EnvOpenOptions::new();
options.map_size(10 * 1024 * 1024); // 10 MB
let index = Index::new(options, &path).unwrap();
let mut wtxn = index.write_txn().unwrap();
let mut builder = Settings::new(&mut wtxn, &index, 0);
let criteria = criteria.iter().map(|c| c.to_string()).collect();
builder.set_criteria(criteria);
builder.set_filterable_fields(hashset! {
S("tag"),
S("asc_desc_rank"),
S("_geo"),
});
builder.set_sortable_fields(hashset! {
S("tag"),
S("asc_desc_rank"),
});
builder.set_synonyms(hashmap! {
S("hello") => vec![S("good morning")],
S("world") => vec![S("earth")],
S("america") => vec![S("the united states")],
});
builder.set_searchable_fields(vec![S("title"), S("description")]);
builder.execute(|_, _| ()).unwrap();
// index documents
let mut builder = UpdateBuilder::new(0);
builder.max_memory(10 * 1024 * 1024); // 10MiB
let mut builder = builder.index_documents(&mut wtxn, &index);
builder.enable_autogenerate_docids();
let mut cursor = Cursor::new(Vec::new());
let mut documents_builder = DocumentBatchBuilder::new(&mut cursor).unwrap();
let reader = Cursor::new(CONTENT.as_bytes());
for doc in serde_json::Deserializer::from_reader(reader).into_iter::<serde_json::Value>() {
documents_builder.add_documents(doc.unwrap()).unwrap();
}
documents_builder.finish().unwrap();
cursor.set_position(0);
// index documents
let content = DocumentBatchReader::from_reader(cursor).unwrap();
builder.execute(content, |_, _| ()).unwrap();
wtxn.commit().unwrap();
index
}
pub fn internal_to_external_ids(index: &Index, internal_ids: &[DocumentId]) -> Vec<String> {
let mut rtxn = index.read_txn().unwrap();
let docid_map = index.external_documents_ids(&mut rtxn).unwrap();
let docid_map: std::collections::HashMap<_, _> =
EXTERNAL_DOCUMENTS_IDS.iter().map(|id| (docid_map.get(id).unwrap(), id)).collect();
internal_ids.iter().map(|id| docid_map.get(id).unwrap().to_string()).collect()
}
pub fn expected_order(
criteria: &[Criterion],
authorize_typo: bool,
optional_words: bool,
sort_by: &[AscDesc],
) -> Vec<TestDocument> {
let dataset =
serde_json::Deserializer::from_str(CONTENT).into_iter().map(|r| r.unwrap()).collect();
let mut groups: Vec<Vec<TestDocument>> = vec![dataset];
for criterion in criteria {
let mut new_groups = Vec::new();
for group in groups.iter_mut() {
match criterion {
Criterion::Attribute => {
group.sort_by_key(|d| d.attribute_rank);
new_groups
.extend(group.linear_group_by_key(|d| d.attribute_rank).map(Vec::from));
}
Criterion::Exactness => {
group.sort_by_key(|d| d.exact_rank);
new_groups.extend(group.linear_group_by_key(|d| d.exact_rank).map(Vec::from));
}
Criterion::Proximity => {
group.sort_by_key(|d| d.proximity_rank);
new_groups
.extend(group.linear_group_by_key(|d| d.proximity_rank).map(Vec::from));
}
Criterion::Sort if sort_by == [AscDesc::Asc(Member::Field(S("tag")))] => {
group.sort_by_key(|d| d.sort_by_rank);
new_groups.extend(group.linear_group_by_key(|d| d.sort_by_rank).map(Vec::from));
}
Criterion::Sort if sort_by == [AscDesc::Desc(Member::Field(S("tag")))] => {
group.sort_by_key(|d| Reverse(d.sort_by_rank));
new_groups.extend(group.linear_group_by_key(|d| d.sort_by_rank).map(Vec::from));
}
Criterion::Typo => {
group.sort_by_key(|d| d.typo_rank);
new_groups.extend(group.linear_group_by_key(|d| d.typo_rank).map(Vec::from));
}
Criterion::Words => {
group.sort_by_key(|d| d.word_rank);
new_groups.extend(group.linear_group_by_key(|d| d.word_rank).map(Vec::from));
}
Criterion::Asc(field_name) if field_name == "asc_desc_rank" => {
group.sort_by_key(|d| d.asc_desc_rank);
new_groups
.extend(group.linear_group_by_key(|d| d.asc_desc_rank).map(Vec::from));
}
Criterion::Desc(field_name) if field_name == "asc_desc_rank" => {
group.sort_by_key(|d| Reverse(d.asc_desc_rank));
new_groups
.extend(group.linear_group_by_key(|d| d.asc_desc_rank).map(Vec::from));
}
Criterion::Asc(_) | Criterion::Desc(_) | Criterion::Sort => {
new_groups.push(group.clone())
}
}
}
groups = std::mem::take(&mut new_groups);
}
if authorize_typo && optional_words {
groups.into_iter().flatten().collect()
} else if optional_words {
groups.into_iter().flatten().filter(|d| d.typo_rank == 0).collect()
} else if authorize_typo {
groups.into_iter().flatten().filter(|d| d.word_rank == 0).collect()
} else {
groups.into_iter().flatten().filter(|d| d.word_rank == 0 && d.typo_rank == 0).collect()
}
}
fn execute_filter(filter: &str, document: &TestDocument) -> Option<String> {
let mut id = None;
if let Some((field, filter)) = filter.split_once("=") {
if field == "tag" && document.tag == filter {
id = Some(document.id.clone())
} else if field == "asc_desc_rank"
&& document.asc_desc_rank == filter.parse::<u32>().unwrap()
{
id = Some(document.id.clone())
}
} else if let Some(("asc_desc_rank", filter)) = filter.split_once("<") {
if document.asc_desc_rank < filter.parse().unwrap() {
id = Some(document.id.clone())
}
} else if let Some(("asc_desc_rank", filter)) = filter.split_once(">") {
if document.asc_desc_rank > filter.parse().unwrap() {
id = Some(document.id.clone())
}
} else if filter.starts_with("_geoRadius") {
id = (document.geo_rank < 100000).then(|| document.id.clone());
} else if filter.starts_with("NOT _geoRadius") {
id = (document.geo_rank > 1000000).then(|| document.id.clone());
}
id
}
pub fn expected_filtered_ids(filters: Vec<Either<Vec<&str>, &str>>) -> HashSet<String> {
let dataset: HashSet<TestDocument> =
serde_json::Deserializer::from_str(CONTENT).into_iter().map(|r| r.unwrap()).collect();
let mut filtered_ids: HashSet<_> = dataset.iter().map(|d| d.id.clone()).collect();
for either in filters {
let ids = match either {
Left(array) => array
.into_iter()
.map(|f| {
let ids: HashSet<String> =
dataset.iter().filter_map(|d| execute_filter(f, d)).collect();
ids
})
.reduce(|a, b| a.union(&b).cloned().collect())
.unwrap(),
Right(filter) => {
let ids: HashSet<String> =
dataset.iter().filter_map(|d| execute_filter(filter, d)).collect();
ids
}
};
filtered_ids = filtered_ids.intersection(&ids).cloned().collect();
}
filtered_ids
}
#[derive(Debug, Clone, Deserialize, PartialEq, Eq, Hash)]
pub struct TestDocument {
pub id: String,
pub word_rank: u32,
pub typo_rank: u32,
pub proximity_rank: u32,
pub attribute_rank: u32,
pub exact_rank: u32,
pub asc_desc_rank: u32,
pub sort_by_rank: u32,
pub geo_rank: u32,
pub title: String,
pub description: String,
pub tag: String,
}